<?php

/*  PEL: PHP Exif Library.  A library with support for reading and
 *  writing all Exif headers in JPEG and TIFF images using PHP.
 *
 *  Copyright (C) 2004, 2005, 2006  Martin Geisler.
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program in the file COPYING; if not, write to the
 *  Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
 *  Boston, MA 02110-1301 USA
 */

/* $Id: PelEntryShort.php 419 2006-02-20 16:22:36Z mgeisler $ */


/**
 * Classes used to hold shorts, both signed and unsigned.
 *
 * @author Martin Geisler <mgeisler@users.sourceforge.net>
 * @version $Revision: 419 $
 * @date $Date: 2006-02-20 17:22:36 +0100 (Mon, 20 Feb 2006) $
 * @license http://www.gnu.org/licenses/gpl.html GNU General Public
 * License (GPL)
 * @package PEL
 */

/**#@+ Required class definitions. */
require_once('PelEntryNumber.php');
require_once('PelConvert.php');
require_once('Pel.php');
/**#@-*/


/**
 * Class for holding signed shorts.
 *
 * This class can hold shorts, either just a single short or an array
 * of shorts.  The class will be used to manipulate any of the Exif
 * tags which has format {@link PelFormat::SHORT} like in this
 * example:
 *
 * <code>
 * $w = $ifd->getEntry(PelTag::EXIF_IMAGE_WIDTH);
 * $w->setValue($w->getValue() / 2);
 * $h = $ifd->getEntry(PelTag::EXIF_IMAGE_HEIGHT);
 * $h->setValue($h->getValue() / 2);
 * </code>
 *
 * Here the width and height is updated to 50% of their original
 * values.
 *
 * @author Martin Geisler <mgeisler@users.sourceforge.net>
 * @package PEL
 */
class PelEntryShort extends PelEntryNumber {

  /**
   * Make a new entry that can hold an unsigned short.
   *
   * The method accept several integer arguments.  The {@link
   * getValue} method will always return an array except for when a
   * single integer argument is given here.
   *
   * This means that one can conveniently use objects like this:
   * <code>
   * $a = new PelEntryShort(PelTag::EXIF_IMAGE_HEIGHT, 42);
   * $b = $a->getValue() + 314;
   * </code>
   * where the call to {@link getValue} will return an integer
   * instead of an array with one integer element, which would then
   * have to be extracted.
   *
   * @param PelTag the tag which this entry represents.  This should be
   * one of the constants defined in {@link PelTag}, e.g., {@link
   * PelTag::IMAGE_WIDTH}, {@link PelTag::ISO_SPEED_RATINGS},
   * or any other tag with format {@link PelFormat::SHORT}.
   *
   * @param int $value... the short(s) that this entry will
   * represent.  The argument passed must obey the same rules as the
   * argument to {@link setValue}, namely that it should be within
   * range of an unsigned short, that is between 0 and 65535
   * (inclusive).  If not, then a {@link PelOverFlowException} will be
   * thrown.
   */
  function __construct($tag /* $value... */) {
    $this->tag    = $tag;
    $this->min    = 0;
    $this->max    = 65535;
    $this->format = PelFormat::SHORT;

    $value = func_get_args();
    array_shift($value);
    $this->setValueArray($value);
  }


  /**
   * Convert a number into bytes.
   *
   * @param int the number that should be converted.
   *
   * @param PelByteOrder one of {@link PelConvert::LITTLE_ENDIAN} and
   * {@link PelConvert::BIG_ENDIAN}, specifying the target byte order.
   *
   * @return string bytes representing the number given.
   */
  function numberToBytes($number, $order) {
    return PelConvert::shortToBytes($number, $order);
  }


  /**
   * Get the value of an entry as text.
   *
   * The value will be returned in a format suitable for presentation,
   * e.g., instead of returning '2' for a {@link
   * PelTag::METERING_MODE} tag, 'Center-Weighted Average' is
   * returned.
   *
   * @param boolean some values can be returned in a long or more
   * brief form, and this parameter controls that.
   *
   * @return string the value as text.
   */
  function getText($brief = false) {
    switch ($this->tag) {
    case PelTag::METERING_MODE:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Unknown');
      case 1:
        return Pel::tra('Average');
      case 2:
        return Pel::tra('Center-Weighted Average');
      case 3:
        return Pel::tra('Spot');
      case 4:
        return Pel::tra('Multi Spot');
      case 5:
        return Pel::tra('Pattern');
      case 6:
        return Pel::tra('Partial');
      case 255:
        return Pel::tra('Other');
      default:
        return $this->value[0];
      }

    case PelTag::COMPRESSION:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 1:
        return Pel::tra('Uncompressed');
      case 6:
        return Pel::tra('JPEG compression');
      default:
        return $this->value[0];
      
      }

    case PelTag::PLANAR_CONFIGURATION:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 1:
        return Pel::tra('chunky format');
      case 2:
        return Pel::tra('planar format');
      default:
        return $this->value[0];
      }
      
    case PelTag::SENSING_METHOD:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 1:
        return Pel::tra('Not defined');
      case 2:
        return Pel::tra('One-chip color area sensor');
      case 3:
        return Pel::tra('Two-chip color area sensor');
      case 4:
        return Pel::tra('Three-chip color area sensor');
      case 5:
        return Pel::tra('Color sequential area sensor');
      case 7:
        return Pel::tra('Trilinear sensor');
      case 8:
        return Pel::tra('Color sequential linear sensor');
      default:
        return $this->value[0];
      }

    case PelTag::LIGHT_SOURCE:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Unknown');
      case 1:
        return Pel::tra('Daylight');
      case 2:
        return Pel::tra('Fluorescent');
      case 3:
        return Pel::tra('Tungsten (incandescent light)');
      case 4:
        return Pel::tra('Flash');
      case 9:
        return Pel::tra('Fine weather');
      case 10:
        return Pel::tra('Cloudy weather');
      case 11:
        return Pel::tra('Shade');
      case 12:
        return Pel::tra('Daylight fluorescent');
      case 13:
        return Pel::tra('Day white fluorescent');
      case 14:
        return Pel::tra('Cool white fluorescent');
      case 15:
        return Pel::tra('White fluorescent');
      case 17:
        return Pel::tra('Standard light A');
      case 18:
        return Pel::tra('Standard light B');
      case 19:
        return Pel::tra('Standard light C');
      case 20:
        return Pel::tra('D55');
      case 21:
        return Pel::tra('D65');
      case 22:
        return Pel::tra('D75');
      case 24:
        return Pel::tra('ISO studio tungsten');
      case 255:
        return Pel::tra('Other');
      default:
        return $this->value[0];
      }

    case PelTag::FOCAL_PLANE_RESOLUTION_UNIT:
    case PelTag::RESOLUTION_UNIT:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 2:
        return Pel::tra('Inch');
      case 3:
        return Pel::tra('Centimeter');
      default:
        return $this->value[0];
      }

    case PelTag::EXPOSURE_PROGRAM:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Not defined');
      case 1:
        return Pel::tra('Manual');
      case 2:
        return Pel::tra('Normal program');
      case 3:
        return Pel::tra('Aperture priority');
      case 4:
        return Pel::tra('Shutter priority');
      case 5:
        return Pel::tra('Creative program (biased toward depth of field)');
      case 6:
        return Pel::tra('Action program (biased toward fast shutter speed)');
      case 7:
        return Pel::tra('Portrait mode (for closeup photos with the background out of focus');
      case 8:
        return Pel::tra('Landscape mode (for landscape photos with the background in focus');
      default:
        return $this->value[0];
      }
   
    case PelTag::ORIENTATION:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 1:
        return Pel::tra('top - left');
      case 2:
        return Pel::tra('top - right');
      case 3:
        return Pel::tra('bottom - right');
      case 4:
        return Pel::tra('bottom - left');
      case 5:
        return Pel::tra('left - top');
      case 6:
        return Pel::tra('right - top');
      case 7:
        return Pel::tra('right - bottom');
      case 8:
        return Pel::tra('left - bottom');
      default:
        return $this->value[0];
      }

    case PelTag::YCBCR_POSITIONING:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 1:
        return Pel::tra('centered');
      case 2:
        return Pel::tra('co-sited');
      default:
        return $this->value[0];
      }

    case PelTag::YCBCR_SUB_SAMPLING:
      //CC (e->components, 2, v);
      if ($this->value[0] == 2 && $this->value[1] == 1)
        return 'YCbCr4:2:2';
      if ($this->value[0] == 2 && $this->value[1] == 2)
        return 'YCbCr4:2:0';
      
      return $this->value[0] . ', ' . $this->value[1];
   
    case PelTag::PHOTOMETRIC_INTERPRETATION:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 2:
        return 'RGB';
      case 6:
        return 'YCbCr';
      default:
        return $this->value[0];
      }
   
    case PelTag::COLOR_SPACE:
      //CC (e->components, 1, v); 
      switch ($this->value[0]) { 
      case 1:
        return 'sRGB';
      case 2:
        return 'Adobe RGB';
      case 0xffff:
        return Pel::tra('Uncalibrated');
      default:
        return $this->value[0];
      }

    case PelTag::FLASH:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0x0000:
        return Pel::tra('Flash did not fire.');
      case 0x0001:
        return Pel::tra('Flash fired.');
      case 0x0005:
        return Pel::tra('Strobe return light not detected.');
      case 0x0007:
        return Pel::tra('Strobe return light detected.');
      case 0x0009:
        return Pel::tra('Flash fired, compulsory flash mode.');
      case 0x000d:
        return Pel::tra('Flash fired, compulsory flash mode, return light not detected.');
      case 0x000f:
        return Pel::tra('Flash fired, compulsory flash mode, return light detected.');
      case 0x0010:
        return Pel::tra('Flash did not fire, compulsory flash mode.');
      case 0x0018:
        return Pel::tra('Flash did not fire, auto mode.');
      case 0x0019:
        return Pel::tra('Flash fired, auto mode.');
      case 0x001d:
        return Pel::tra('Flash fired, auto mode, return light not detected.');
      case 0x001f:
        return Pel::tra('Flash fired, auto mode, return light detected.');
      case 0x0020:
        return Pel::tra('No flash function.');
      case 0x0041:
        return Pel::tra('Flash fired, red-eye reduction mode.');
      case 0x0045:
        return Pel::tra('Flash fired, red-eye reduction mode, return light not detected.');
      case 0x0047:
        return Pel::tra('Flash fired, red-eye reduction mode, return light detected.');
      case 0x0049:
        return Pel::tra('Flash fired, compulsory flash mode, red-eye reduction mode.');
      case 0x004d:
        return Pel::tra('Flash fired, compulsory flash mode, red-eye reduction mode, return light not detected.');
      case 0x004f:
        return Pel::tra('Flash fired, compulsory flash mode, red-eye reduction mode, return light detected.');
      case 0x0058:
        return Pel::tra('Flash did not fire, auto mode, red-eye reduction mode.');
      case 0x0059:
        return Pel::tra('Flash fired, auto mode, red-eye reduction mode.');
      case 0x005d:
        return Pel::tra('Flash fired, auto mode, return light not detected, red-eye reduction mode.');
      case 0x005f:
        return Pel::tra('Flash fired, auto mode, return light detected, red-eye reduction mode.');
      default:
        return $this->value[0];
      }

    case PelTag::CUSTOM_RENDERED:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Normal process');
      case 1:
        return Pel::tra('Custom process');
      default:
        return $this->value[0];
      }

    case PelTag::EXPOSURE_MODE:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Auto exposure');
      case 1:
        return Pel::tra('Manual exposure');
      case 2:
        return Pel::tra('Auto bracket');
      default:
        return $this->value[0];
      }
   
    case PelTag::WHITE_BALANCE:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Auto white balance');
      case 1:
        return Pel::tra('Manual white balance');
      default:
        return $this->value[0];
      }

    case PelTag::SCENE_CAPTURE_TYPE:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Standard');
      case 1:
        return Pel::tra('Landscape');
      case 2:
        return Pel::tra('Portrait');
      case 3:
        return Pel::tra('Night scene');
      default:
        return $this->value[0];
      }

    case PelTag::GAIN_CONTROL:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Normal');
      case 1:
        return Pel::tra('Low gain up');
      case 2:
        return Pel::tra('High gain up');
      case 3:
        return Pel::tra('Low gain down');
      case 4:
        return Pel::tra('High gain down');
      default:
        return $this->value[0];
      }

    case PelTag::SATURATION:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Normal');
      case 1:
        return Pel::tra('Low saturation');
      case 2:
        return Pel::tra('High saturation');
      default:
        return $this->value[0];
      }

    case PelTag::CONTRAST:
    case PelTag::SHARPNESS:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Normal');
      case 1:
        return Pel::tra('Soft');
      case 2:
        return Pel::tra('Hard');
      default:
        return $this->value[0];
      }

    case PelTag::SUBJECT_DISTANCE_RANGE:
      //CC (e->components, 1, v);
      switch ($this->value[0]) {
      case 0:
        return Pel::tra('Unknown');
      case 1:
        return Pel::tra('Macro');
      case 2:
        return Pel::tra('Close view');
      case 3:
        return Pel::tra('Distant view');
      default:
        return $this->value[0];
      }

    case PelTag::SUBJECT_AREA:
      switch ($this->components) {
      case 2:
        return Pel::fmt('(x,y) = (%d,%d)', $this->value[0], $this->value[1]);
      case 3:
        return Pel::fmt('Within distance %d of (x,y) = (%d,%d)',
                        $this->value[0], $this->value[1], $this->value[2]);
      case 4:
        return Pel::fmt('Within rectangle (width %d, height %d) around (x,y) = (%d,%d)',
                        $this->value[0], $this->value[1],
                        $this->value[2], $this->value[3]);
        
      default:
        return Pel::fmt('Unexpected number of components (%d, expected 2, 3, or 4).', $this->components);
      }

    default:
      return parent::getText($brief);
    }
  }
}


/**
 * Class for holding signed shorts.
 *
 * This class can hold shorts, either just a single short or an array
 * of shorts.  The class will be used to manipulate any of the Exif
 * tags which has format {@link PelFormat::SSHORT}.
 *
 * @author Martin Geisler <mgeisler@users.sourceforge.net>
 * @package PEL
 */
class PelEntrySShort extends PelEntryNumber {

  /**
   * Make a new entry that can hold a signed short.
   *
   * The method accept several integer arguments.  The {@link
   * getValue} method will always return an array except for when a
   * single integer argument is given here.
   *
   * @param PelTag the tag which this entry represents.  This
   * should be one of the constants defined in {@link PelTag}
   * which has format {@link PelFormat::SSHORT}.
   *
   * @param int $value... the signed short(s) that this entry will
   * represent.  The argument passed must obey the same rules as the
   * argument to {@link setValue}, namely that it should be within
   * range of a signed short, that is between -32768 to 32767
   * (inclusive).  If not, then a {@link PelOverFlowException} will be
   * thrown.
   */
  function __construct($tag /* $value... */) {
    $this->tag    = $tag;
    $this->min    = -32768;
    $this->max    = 32767;
    $this->format = PelFormat::SSHORT;

    $value = func_get_args();
    array_shift($value);
    $this->setValueArray($value);
  }


  /**
   * Convert a number into bytes.
   *
   * @param int the number that should be converted.
   *
   * @param PelByteOrder one of {@link PelConvert::LITTLE_ENDIAN} and
   * {@link PelConvert::BIG_ENDIAN}, specifying the target byte order.
   *
   * @return string bytes representing the number given.
   */
  function numberToBytes($number, $order) {
    return PelConvert::sShortToBytes($number, $order);
  }
}


?>